rhizosphere microbiome - Aneknowledge.com

Chickpea priming with Trichoderma asperellum T42 enriches free-living nitrogen cyclers in rhizosphere and enhances nitrogen uptake in off-springs under stress.

Trichoderma Priming Boosts Free-Living Nitrogen Cyclers and Stress Resilience in Chickpea

New research reveals that Trichoderma asperellum T42 reshapes the chickpea rhizosphere, boosts free-living nitrogen fixers, and enhances nitrogen uptake under stress.

Aneknowledge December 6, 2025

Bipolaris maydis foliar infection modifies maize root metabolites to recruit Pseudomonas for host resistance.

Agriculture Biochemistry Biodiversity

Maize Fights Back: How a Fungal Infection Recruits Friendly Bacteria for Natural Disease Resistance

New research in Phytopathology Research (2025) reveals that maize plants infected by Bipolaris maydis naturally recruit Pseudomonas bacteria through root metabolite changes. This discovery opens new sustainable pathways for managing Southern Corn Leaf Blight without relying on chemicals.

Aneknowledge October 29, 2025

Compound Bacillus agents inhibit Cytospora mali-induced valsa canker in Hanfu apple trees through multiple pathways

Agriculture Bacillus Biochemistry

New Bacillus Consortium Offers Eco-Friendly Defense Against Devastating Apple Valsa Canker

Researchers from Shenyang Agricultural University developed a powerful Bacillus consortium that combats Cytospora mali-induced apple Valsa canker in Hanfu apples. The study reveals multi-pathway protection through antifungal activity, enhanced plant defense enzymes, growth promotion, and soil microbiome enrichment.

Aneknowledge October 21, 2025

Multifactorial synergistic strategies mediate the biocontrol of Fusarium oxysporum-induced root rot by Bacillus velezensis SYL-3.

Agriculture Bacillus Emerging Science

Bacillus velezensis SYL-3 Shows Multifactorial Power in Controlling Fusarium Root Rot and Enhancing Soil Health

New research reveals how Bacillus velezensis SYL-3 combats Fusarium oxysporum-induced root rot through multifactorial synergistic strategies, reshaping soil microbiomes, boosting beneficial microbes, and enhancing plant nutrient pathways — a breakthrough for sustainable agriculture.

Aneknowledge October 16, 2025

Differences in bacterial community composition and diversity in the rhizosphere and surrounding environment of wild soybean (Glycine soja) under different salt stress conditions.

Agriculture Biochemistry Biodiversity

How Wild Soybeans Use Microbes to Thrive in Salty Soils: Lessons from the Yellow River Delta

New research reveals how wild soybeans use salt-tolerant rhizosphere microbes like Pseudomonas and Rhizobium to survive in saline soils of the Yellow River Delta.

Aneknowledge October 12, 2025

Intercropping between persimmon and apple enriched the leaf endophytes and rhizosphere communities against apple root rot.

Agriculture Biodiversity Emerging Science

How Intercropping Persimmon with Apple Trees Fights Root Rot Through Microbiome Harmony

Discover how intercropping persimmon and apple trees can naturally suppress apple root rot by enriching beneficial soil and leaf microbes. Learn how this sustainable approach improves tree health and microbial diversity while reducing chemical pesticide dependence.

Aneknowledge October 7, 2025

Metagenomic analysis of microbial community dynamics in konjac rhizosphere during soft rot disease progression.

Agriculture Emerging Science Environment

Harnessing the Rhizosphere Microbiome: New Insights into Combating Konjac Soft Rot

Metagenomic insights into konjac soft rot reveal key microbes driving disease and potential biocontrol agents for sustainable crop protection.

Aneknowledge October 7, 2025